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Wednesday, November 30, 2016

Can You Hear The Corn Grow? Yes!

Spoiler alert: The sound corn emits while growing
is surprisingly similar to the sound of breaking corn, and one possible reason
behind it may radically change the way we think about plant growth

Newswise, November 30, 2016 -- There’s an old farmer’s tale
that says, “On a quiet night you can hear the corn grow.” It may seem funny,
but Douglas Cook at New York University and colleagues Roger Elmore and Justin
McMechan, at the University of Nebraska, were able to use contact microphones
to directly record the sounds of corn growing.

Corn is the leading grain crop in the U.S. with more than 350
million metric tons harvested yearly. But a lack of understanding about the
mechanics involved in wind-induced corn stalk failure has hindered further
improvements in corn production. Crop scientists have been working on this
problem for more than 100 years, albeit with only marginal success.

Now, by applying mechanical engineering tools and techniques,
a group of engineers and plant scientists led by Cook are making headway
addressing this problem as well as discovering other issues related to plant
growth and development.

During the 172nd Meeting of the Acoustical Society of America
and the 5th Joint Meeting with Acoustical Society of Japan, being held Nov.
28-Dec. 2, 2016, in Honolulu, Hawaii, Cook will describe his work using
acoustic emissions techniques to explore corn stalk growth and breakage.

“Material breakage is a lot like a microscopic earthquake: the
sudden release of internal stresses sends sound waves radiating in every
direction,” Cook explained.

“We’re using special sensors called piezoelectric contact
microphones to monitor the sounds emitted by corn stalks just before failure.
This helps us understand the failure process more clearly.”

So what does it sound like? “Surprisingly, it sounds
remarkably similar to the sounds made when corn breaks,” Cook said.

“We now think that plant growth involves millions of tiny
breakage events, and that these breakage events trigger the plant to rush to
‘repair’ the broken regions. By continuously breaking and repairing, the plant
is able to grow taller and taller.”

While the researchers haven’t yet determined whether this is
true for all plants, Cook suggested that it may be a mechanism similar to that
involved in muscle development: Lifting weights imparts tiny micro-tears in the
muscle and, as these are repaired, the muscle is strengthened.

This intriguing finding is the result of the fusion of two
seemingly unrelated disciplines: plant science and mechanical engineering.

“Many crops are lost each year due to wind damage,” Cook said.
“Engineers know a lot about how to prevent structural failure, and by using
natural breeding techniques plant scientists can improve virtually any feature
of the plant that they can measure. So you can imagine that a great deal of
progress in plant structural integrity can be achieved by these two disciplines
working together.”

In terms of applications, “this is a very young field of
research, so most of our work is still quite fundamental in nature,” Cook said.
“We’re learning about plant growth and breakage, which could be useful to
breeders when developing optimally designed plants.”

For example, they’ve learned that the leaves of corn plants
actually provide the majority of structural support during periods of rapid
growth. That’s quite amazing according to Cook -- and not a role a leaf is
typically expected to play. So it should help plant scientists start developing
new varieties with tougher leaves that are less susceptible to failure during
the growth phase.

Cook’s background is in human biomechanics, so he and
colleagues are currently using computerized tomography (CT) technology to
obtain 3-D images of plants.

“We also plan to use magnetic resonance imaging (MRI)
technology to visualize corn growth and development,” Cook added. “We’d like to
learn more about stalk failure -- with a goal of identifying the ‘weakest link’
within the stalk failure process. Once it’s identified, plant scientists can
try to improve stalk strength and resilience.”

About Me

Daniel Hines is an international-award winning communicator
with extensive experience as a senior-level communications executive with some
of America’s leading corporations, and as the founder of his own communications
consulting business since 1986. A graduate of Bradley University, where he was
elected to the Phi Kappa Phi honor society for scholastic excellence, he has
established TodaysSeniorsNetwork as a leading source of information for issues
affecting an Aging America, as well as advocacy on behalf of successful aging.
He is also a leading spokesperson and advocate on behalf of access by Americans
to safe, affordable, personally imported prescription medicines as a bulwark
against the predatory pricing practices of Pharma. His series of blogs deal with primary issues
of an Aging America, including health, safety, technology, caregiving, aging in
place, end-of-life and retirement.